The influence of bacterial species and intensity of infections on nodule formation in insects.

Nodulation is the predominant cellular immune reaction to bacterial infection in insects. Nodulation is a complex process involving an unknown number of discrete cellular actions. Currently, there is only limited information on the signal transduction mechanisms that result in nodulation. In older larvae of the tobacco hornworm, Manduca sexta, and of the tenebrionid beetle, Zophobas atratus, eicosanoids are involved in one or more steps in the overall process, and treating these insects with inhibitors of eicosanoid biosynthesis prior to bacterial infection severely impairs their ability to form nodules. In this paper we address more detailed questions on eicosanoid-mediated nodulation. The nodulation reaction to bacterial infection occurs in all larval stages we examined, specifically, second, third, and fourth instars of M. sexta. In both species, the number of nodules formed in response to bacterial infection is related in an exponential way to the number of bacterial cells in the infection. Nodulation is also not related to larval size. We also found that nodulation intensity varies according to the species of infecting bacteria.